Low-Cost Impedance Camera for Cell Distribution Monitoring

Tang, Bo; Liu, Mengxi; Dietzel, Andreas

doi:10.3390/bios13020281

“…With the rapid development of MEMS technology, a number of micro-scale devices have already been constructed for bioanalysis at the single-cell scale. In some cases, MEMS methods have inherent scaling advantages [64] and have been used to study various cell types, including red blood cells [65], lymphocytes, and others.…”

Section: Single-cell Manipulationmentioning

confidence: 99%

Electrical Characterization and Analysis of Single Cells and Related Applications

Zhu,

Wang,

Luo

et al. 2023

View full text Add to dashboard Cite

Biological parameters extracted from electrical signals from various body parts have been used for many years to analyze the human body and its behavior. In addition, electrical signals from cancer cell lines, normal cells, and viruses, among others, have been widely used for the detection of various diseases. Single-cell parameters such as cell and cytoplasmic conductivity, relaxation frequency, and membrane capacitance are important. There are many techniques available to characterize biomaterials, such as nanotechnology, microstrip cavity resonance measurement, etc. This article reviews single-cell isolation and sorting techniques, such as the micropipette separation method, separation and sorting system (dual electrophoretic array system), DEPArray sorting system (dielectrophoretic array system), cell selector sorting system, and microfluidic and valve devices, and discusses their respective advantages and disadvantages. Furthermore, it summarizes common single-cell electrical manipulations, such as single-cell amperometry (SCA), electrical impedance sensing (EIS), impedance flow cytometry (IFC), cell-based electrical impedance (CEI), microelectromechanical systems (MEMS), and integrated microelectrode array (IMA). The article also enumerates the application and significance of single-cell electrochemical analysis from the perspectives of CTC liquid biopsy, recombinant adenovirus, tumor cells like lung cancer DTCs (LC-DTCs), and single-cell metabolomics analysis. The paper concludes with a discussion of the current limitations faced by single-cell analysis techniques along with future directions and potential application scenarios.

show abstract

Integrated sensors for electric stimulation of stem cells: A review on microelectrode arrays (MEAs) based systems

Algarín,

Martín,

Daza

et al. 2025

Sensors and Actuators Reports

0

View full text Add to dashboard Cite

Electrical Manipulation, Characterization and Application of Single Cell

Zhu¹,

Wang²,

Luo³

et al. 2023

Preprint

0

View full text Add to dashboard Cite

Biological parameters extracted from electrical signals from various body parts have been used for many years to analyze the human body and its behavior. In addition, electrical signals from cancer cell lines, normal cells, and viruses, among others, have been widely used for the detection of various diseases. Single-cell parameters such as cell and cytoplasmic conductivity, relaxation frequency, and membrane capacitance are important. There are many techniques available to characterize biomaterials, such as scanning tunneling microscopy (STM), nanotechnology, microstrip cavity resonance measurement, dielectric impedance measurement (DEPIM), etc. This article reviews the single cell isolation and sorting techniques, summarizes the common single cell operations such as impedance flow cytometry, cell electrical impedance, electrical impedance sensing, and summarizes the current single cell analysis techniques and their applications.

show abstract

Low-Cost Impedance Camera for Cell Distribution Monitoring

Cited by 3 publications

References 25 publications

Electrical Characterization and Analysis of Single Cells and Related Applications

Electrical Characterization and Analysis of Single Cells and Related Applications

Integrated sensors for electric stimulation of stem cells: A review on microelectrode arrays (MEAs) based systems

Electrical Manipulation, Characterization and Application of Single Cell

Contact Info

Product

Resources

About